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Scientific publications in 2014
Papers that are referenced and indexed in a worldwide system of referral, indexing and evaluation
1. Fidanova S., Marinov P., Paprzycki M., Multi-Objective ACO Algorithm for WSN Layout: Performance According Number of Ants, J. of Metaheuristics, Vol 3(2), ISSN 1755-2176, 2014,DOI 10.1504/IJMHEUR.2014.063145, 149 -- 161.
2. Fidanova S., Paprzycki M., Roeva O., Hybrid GA-ACO Algorithm for a Model Parameter Identification Problem, In proc. of FedCSIS 2014 conference, IEEE Xplorer, IEEE catalog number CFP1485N-ART, ISSN 2300-5963, ISBN 978-83-60810-58-32014, DOI 10.15439/2014F373, 2014, pp. 413 - 420.
3. Roeva O., Fidanova S., Parameter Identification of an E.coli Cultivation Peocess Model Using Hybrid Methaeuristics, J. of Metaheuristics, Vol 3(2), ISSN 1755-2176, 2014, 10.1504/IJMHEUR.2014.063143, 133 -- 148.
4. I. T. Dimov, S. Maire, J. M. Sellier. A New Walk on Equations Monte Carlo Method for Linear Algebraic Problems, HAL - Inria/ Open archive, 2014, HAL Id: hal-00979044
Papers in journals with impact factor IF (Web of Science) or impact ranking SJR (SCOPUS)
1. Fidanova S., Marinov P., Atanassov K., New Estimations of Ant Colony Optimization Start Nodes, Int. J. Control and Cybernetics, Vol 43(3) Polish Academy of Science, ISSN 0324-8569, SJR 0.290, F(2008) 0.380, 2014, 271 – 285.
2. Fidanova S., Marinov P., Paprzycki M, Influence of the Number of Ants on Multy-Objective Ant Colony Optimization Algorithm for Wireless Sensor Network Layout, Large-Scale Scientific Computing, Lecture Notes in Computer Science, (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Springer, Germany, 8353 LNCS, 2014, pp. 232-239.. / ISSN 0302-9743, SJR 0.310 /
3. J. M. Sellier, M. Nedjalkov, I. Dimov, S. Selberherr: "A benchmark study of the Wigner Monte Carlo method"; Monte Carlo Methods and Applications, 20 (2014), 43 - 51 doi:10.1515/mcma-2013-0018. SJR = 0.298
4. J. M. Sellier, M. Nedjalkov, I. Dimov, S. Selberherr: "The Multi-Dimensional Transient Challenge: The Wigner Particle Approach"; Invited talk: International Workshop on Computational Electronics (IWCE), Paris, France; 03.06.2014 - 06.06.2014; in "17th International Workshop on Computational Electronics (IWCE 2014)", (2014), ISBN: 978-2-9547858-0-6, 119 - 120. SJR=0.135
5. JM Sellier, M Nedjalkov, I . T. Dimov, and S. Selberherr. The role of annihilation in a Wigner Monte Carlo approach, Large-Scale Scientific Computing, Lecture Notes in Computer Science, Volume 8353, Pages 186-193 (Editors: Ivan Lirkov, Svetozar Margenov, Jerzy Waśniewski), ISBN: 978-3-662-43879-4 (Print) 978-3-662-43880-0 (Online) 2014, SJR 0.310 pp 186-193, 2014,
6. J.M. Sellier, M. Nedjalkov, I. T. Dimov, S. Selberherr. A benchmark study of the Wigner Monte-Carlo method, Monte Carlo Methods and Applications, Volume 20, Issue 1 (Mar 2014), Pages 43–51, ISSN (Online) 1569-3961, ISSN (Print) 0929-9629, De Gruyter, 2014. DOI: 10.1515/mcma-2013-0018, Mathematical Citation Quotient: 0.12, SJR indicator (2012): 0.224,
7. L. Wang, A. Brown, M. Nedjalkov, C. Alexander, B. Cheng, C. Millar, A. Asenov: "3D Coupled Electro-Thermal FinFET Simulations Including the Fin Shape Dependence of the Thermal Conductivity" ;"Proceedings of the 19th International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2014), ISBN: 978-1-4799-5285-4, 269 - 272 doi:10.1109/SISPAD.2014.6931615. SJR=0.239
8. P. Ellinghaus, M. Nedjalkov, S. Selberherr: "Efficient Calculation of the Two-Dimensional Wigner Potential"; Talk: International Workshop on Computational Electronics (IWCE), Paris, France; 03.06.2014 - 06.06.2014; in "The 17th International Workshop on Computational Electronics", (2014), ISBN: 978-2-9547858-0-6, 19 - 20 doi:10.1109/IWCE.2014.6865812. SJR=0.135
9. P. Ellinghaus, M. Nedjalkov, S. Selberherr: "Implications of the Coherence Length on the Discrete Wigner Potential"; Poster: International Workshop on Computational Electronics (IWCE), Paris, France; 03.06.2014 - 06.06.2014; in "The 17th International Workshop on Computational Electronics", (2014), ISBN: 978-2-9547858-0-6, 155 - 156 doi:10.1109/IWCE.2014.6865852. SJR=0.135
10. P. Ellinghaus, M. Nedjalkov, S. Selberherr: "The Wigner Monte Carlo Method for Accurate Semiconductor Device Simulation"; "Proceedings of the 19th International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2014), ISBN: 978-1-4799-5285-4, 113 - 116 doi:10.1109/SISPAD.2014.6931576. SJR=0.239
11. P. Szmeja, K. Wasielewska, M. Ganzha, M. Drozdowicz, M. Paprzycki, S. Fidanova, I. Lirkov, Reengineering and Extending the Agents in Grid Ontology, Large-Scale Scientific Computing, Lecture Notes in Computer Science 8353, Springer, Germany, ISSN 0302-0743, SJR 0.310, DOI 10.1007/978-3-662-43880-0_65, 2014, 565 – 574.
12. Roeva O., Fidanova S., Atanassova V., Hybrid ACO-GA for Parameter Identification of an E. coli Cultivation Process Model, Large-Scale Scientific Computing, Lecture Notes in Computer Science 8353, Springer, Germany, ISSN 0302-9743, SJR 0.310, DOI 10.1007/978-3-662-43880-0_35, 2014, 321 – 328.
13. Sotirova E., Velizarova E., Fidanova S., Atanasov K., Modeling Forest Fire Spread through a Game Method for Modeling Based on Hexagonal Cells, Large-Scale Scientific Computing, Lecture Notes in Computer Science 8353, Springer, Germany, ISSN 0302-9743, DOI 10.1007/978-3-662-43880-0_36, SJR 0.310 2014, 296 – 306.
14. P Schwaha, M Nedjalkov, S Selberherr, JM Sellier, I. T. Dimov, and R. Georgieva. Stochastic Formulation of Newton’s Acceleration, Large-Scale Scientific Computing, Lecture Notes in Computer Science, Volume 8353, Pages 178-185 (Editors: Ivan Lirkov, Svetozar Margenov, Jerzy Waśniewski), ISBN: 978-3-662-43879-4 (Print) 978-3-662-43880-0 (Online) 2014, pp 186-193, 2014
15. Z. Zlatev, K. Georgiev, and I. T. Dimov. Stability Properties of Explicit Runge-Kutta Methods Combined with Richardson Extrapolation, Large-Scale Scientific Computing, Lecture Notes in Computer Science, Volume 8353, Pages 428-435 (Editors: Ivan Lirkov, Svetozar Margenov, Jerzy Waśniewski), ISBN: 978-3-662-43879-4 (Print) 978-3-662-43880-0 (Online), SJR 0.31,0 2014, pp 186-193,
16. A. B. Andreev and M. R. Racheva, On a Type of Nonconforming Morley Rectangular Finite Element, Springer LNCS, SJR 0.310, 282-289.
17. A. B. Andreev and M. R. Racheva, The Effect of a Postprocessing Procedure to Upper Bounds of the Eigenvalues, Springer LNCS, SJR 0.310, 273-281.
18. Fidanova S., Pop P., An Ant Algorithm for the Partitioned Graph Coloring Problem, Numerical Methods and Applications, Lecture Notes in Computer Science, Springer, Germany, ISSN 0302-0743, SJR 0.310 (accepted).
19. I. Dimov, M. Nedjalkov, J. M. Sellier, S. Selberherr: "Neumann Series Analysis of the Wigner Equation Solution"; Mathematics in Industry (http://www.springer.com/series/4650?detailsPage=subseries ) SJR=0.647
20. J. Cervenka, P. Ellinghaus, M. Nedjalkov: "Deterministic Solution of the Discrete Wigner Equation"; Talk: International Conference on Numerical Methods and Applications, Borovets, Bulgaria; 20.08.2014 - 24.08.2014; Lecture Notes in Computer Science (LNCS) SJR 0.310
21. P. Ellinghaus, M. Nedjalkov, S. Selberherr: "Optimized Particle Regeneration Scheme for the Wigner Monte Carlo Method"; Talk: International Conference on Numerical Methods and Applications, Borovets, Bulgaria; 20.08.2014 - 24.08.2014;Lecture Notes in Computer Science (LNCS) SJR 0.310
Papers without referring and indexing to the global system for referral, indexing and evaluation
1. Avdzhieva, Ana; Aleksov, Dragomir; Hristov, Ivan; Shegunov, Nikolai; Marinov, Pencho; Circular arc spline approximation of pointwise curves for use in NC programing, Organizers: Institute of Information and Communication Technologies, 104-th European Study Group with Industry (ESGI'104),Problems and Final Reports, September 23-27, 2014, Sofia, Bulgaria, pp. 94-101, ISBN 978-954-9526-87-5
2. Fidanova S., Marinov P., Wind model in a wild fire spread, In proc of Numerical Methods for Scientific Computations and Advanced Applications, K. Georgiev editor, ISBN 975-954-91700-7-8, 2014, pp. 31 – 34
3. Fidanova S., Marinov P., Parallel Algorithm for Field Fire Simulation Mathematics in Industry, Cambridge Scholars Publishing, Proc of SIAM'2013, ISBN(10): 1-4438-6401-3, 2014, pp. 78 - 87.
4. I. Kutiev, P. Marinov, A. Belehaki, I.Tsagouri. TaD Model of Topside Ionosphere and Plasmasphere for GNSS Applicat. Proceedings of the Fourth International Symposium on Radio Systems and Space Plasma, 30-31.10.2014, Ruse, Bulgaria, ISRSSP'2014, pp.18-26 /ISBN: 978-619-90124-2-0/
5. Tz. Ostromsky, Improved Implementation of a Large-Scale Air Pollution Model. Mathematics and Industry, Cambridge & Scholars Publishing (2014), pp. 132 – 144
Editor of proceedings
1. Metaheuristics for Large Scale Problems,Special issue, J. of Metheuristics, Vol. 3(2), gest editors S. Fidanova and Gabriel Luque, Inderscience publisher, ISSN 1755-2176, 2014.
Joint papers with foreign researchers
1. Fidanova S., Marinov P., Paprzycki M, Influence of the Number of Ants on Multy-Objective Ant Colony Optimization Algorithm for Wireless Sensor Network Layout, Large-Scale Scientific Computing, Lecture Notes in Computer Science 8353, Springer, Germany, ISSN 0302-9743, SJR 0.310, 2014, 208 -- 215.
2. Fidanova S., Marinov P., Paparzycki M., Multi-Objective ACO Algorithm for WSN Layout: Performance According Number of Ants, J. of Metaheuristics, Vol 3(2), ISSN 1755-2176, 2014, 149 – 161.
3. Fidanova S., Paprzycki M., Roeva O., Hybride GA-ACO Algorithm for a Model Parameter Identification Problem, In proc. of FedCSIS 2014 conference, IEEE Xplorer, IEEE catalog number CFP1485N-ART, ISSN 2300-5963, ISBN 978-83-60810-58-32014, DOI 10.15439/2014F373, 2014, pp. 413 – 420.
4. Fidanova S., Pop P., An Ant Algorithm for the Partitioned Graph Coloring Problem, Numerical Methods and Applications, Lecture Notes in Computer Science, Springer, Germany, ISSN 0302-0743, SJR 0.310 (accepted).
5. JM Sellier, M Nedjalkov, I . T. Dimov, and S. Selberherr. The role of annihilation in a Wigner Monte Carlo approach, Large-Scale Scientific Computing, Lecture Notes in Computer Science, Volume 8353, Pages 186-193 (Editors: Ivan Lirkov, Svetozar Margenov, Jerzy Waśniewski), ISBN: 978-3-662-43879-4 (Print) 978-3-662-43880-0 (Online) 2014, pp 186-193, 2014
6. I. T. Dimov, S. Maire, J. M. Sellier. A New Walk on Equations Monte Carlo Method for Linear Algebraic Problems, HAL - Inria/ Open archive, 2014, HAL Id: hal-00979044, https://hal.inria.fr/hal-00979044
7. J.M. Sellier, M. Nedjalkov, I. T. Dimov, S. Selberherr. A benchmark study of the Wigner Monte-Carlo method, Monte Carlo Methods and Applications, Volume 20, Issue 1 (Mar 2014), Pages 43–51, ISSN (Online) 1569-3961, ISSN (Print) 0929-9629, De Gruyter, 2014. DOI: 10.1515/mcma-2013-0018, Mathematical Citation Quotient: 0.12, SJR indicator (2012): 0.224
8. J. M. Sellier and I. T. Dimov. Toward solotronics design in the Wigner formalism, Physica A: Statistical Mechanics and its Applications, Volume 417, 2015, pp. 287–296 doi:10.1016/j.physa.2014.09.057, ISSN: 0378-4371, Impact Factor: 1.722(2013).
9. J. M. Sellier and I. T. Dimov. A sensitivity study of the Wigner Monte Carlo method, Journal of Computational and Applied Mathematics, Volume 277, 2015, pp. 87- 93, doi:10.1016/j.cam.2014.09.010, ISSN: 0377-0427, IF: 5-Year Impact Factor: 1.672.
10. J. M. Sellier and I. T. Dimov. On the simulation of indistinguishable fermions in the many-body Wigner formalism, Journal of Computational Physics, Volume 280, 2015, pp. 287–294, Five-Year Impact Factor: 3.184, Impact Factor (2013): 2.138, SJR indicator (2012): 1.921.
11. J. M. Sellier, I. T. Dimov. The many-body Wigner Monte Carlo Method for time-dependent Abinitio quantum simulations, Journal of Computational Physics, Volume 273, (2014), pp. 589–597, ISSN: 0021-9991, Five-Year Impact Factor: 3.184, Impact Factor (2013): 2.138, SJR indicator (2012): 1.921.
12. J.M. Sellier, I. T. Dimov. The Wigner-Boltzmann Monte Carlo Method applied to electron transport in the presence of a single dopant. Computer Physics Communications, Volume 185 (2014), pp. 2427–2435, Elsevier, ISSN: 0010-4655, http://dx.doi.org/10.1016/j.cpc.2014.05.013, Five-Year Impact Factor: 3.212, Impact Factor (2013): 3.078.
13. J.M. Sellier, M. Nedjalkov, I. T. Dimov, S. Selberherr. A Comparison of Approaches for the Solution of the Wigner Equation. Mathematics and Computers in Simulations, Volume 107 (2015), pp. 108–119, Elsevier, ISSN: 0378-4754, doi:10.1016/j.matcom.2014.06.001, Five-Year Impact Factor: 1.033, Impact Factor (2012): 0.836.
14. J.M. Sellier, I. T. Dimov. A Wigner Approach to the Study of Wave Packets in Ordered and Disordered Arrays of Dopants, Physica A: Statistical Mechanics and its Applications, Volume 406 (2014), pp. 185–190, Elsevier, 2014. ISSN: 0378-4371, DOI:10.1016/j.physa.2004.04.121, Five-Year Impact Factor: 1.651, Impact Factor (2012): 1.676, SJR indicator (2012): 0.634.
15. J.M. Sellier, I. T. Dimov. A Wigner Monte Carlo Approach to Density Functional Theory, Journal of Computational Physics, Volume 270 (2014), pp. 265–277, Elsevier, ISSN: 0021-9991. Five-Year Impact Factor: 2.851, Impact Factor (2013): 2.138, SJR indicator (2012): 1.921.
16. J.M. Sellier, S.M. Amoroso, M. Nedjalkov, S. Selberherr, A. Asenov, and I. T. Dimov. Electron dynamics in nanoscale transistors by means of Wigner and Boltzmann approaches, Physica A: Statistical Mechanics and its Applications, Volume 398 (2014), Pages 194–198, doi:10.1016/j.physa.2013.12.045, Five-Year Impact Factor: 1.651, Impact Factor (2012): 1.676, SJR indicator (2012): 0.634.
17. P. Szmeja, K. Wasielewska, M. Ganzha, M. Drozdowicz, M. Paprzycki, S. Fidanova, I. Lirkov, Reengineering and Extending the Agents in Grid Ontology, Large-Scale Scientific Computing, Lecture Notes in Computer Science 8353, Springer, Germany, ISSN 0302-0743, SJR 0.310, 2014, 517 -- 527.
18. P Schwaha, M Nedjalkov, S Selberherr, JM Sellier, I. T. Dimov, and R. Georgieva. Stochastic Formulation of Newton’s Acceleration, Large-Scale Scientific Computing, Lecture Notes in Computer Science, Volume 8353, Pages 178-185 (Editors: Ivan Lirkov, Svetozar Margenov, Jerzy Waśniewski), ISBN: 978-3-662-43879-4 (Print) 978-3-662-43880-0 (Online) 2014, pp 186-193, 2014,
19. Roeva O., Fidanova S., Paprzycki M., Population Size Influence on the Genetic and Ant Algorithms Performance in Case of Cultivation Process Modelling, Recent Advances in Computational Optimization: Results of the Worcshop on Computational Optimization WCO 2013, Studies in Computational Intelligence, S. Fidanova (editor), book Chapter, Springer, ISBN
20. Z. Zlatev, K. Georgiev, and I. T. Dimov. Stability Properties of Explicit Runge-Kutta Methods Combined with Richardson Extrapolation, Large-Scale Scientific Computing, Lecture Notes in Computer Science, Volume 8353, Pages 428-435 (Editors: Ivan Lirkov, Svetozar Margenov, Jerzy Waśniewski), ISBN: 978-3-662-43879-4 (Print) 978-3-662-43880-0 (Online) 2014, pp 186-193, 2014
21. Z Zlatev, I. T. Dimov, I Faragó, K Georgiev, and Á Havasi. Application of Richardson extrapolation for multi-dimensional advection equations, Computers & Mathematics with Applications, Volume 67, Issue 12 (2014), pp. 2279–2293, doi:10.1016/j.camwa.2014.02.028, ISSN: 0898-1221, 5-Year Impact Factor: 2.062, impact factors: 1.996(2013).
22. Z. Zlatev, K. Georgiev, and I. T. Dimov. Studying absolute stability properties of the Richardson Extrapolation combined with explicit Runge–Kutta methods, Computers & Mathematics with Applications, Volume 67, Issue 12 (2014), pp. 2294–2307, doi:10.1016/j.camwa.2014.02.025, ISSN: 0898-1221, 5-Year Impact Factor: 2.062, impact factors: 1.996(2013).
23. P Ellinghaus, J Weinbub, M Nedjalkov, S Selberher, and I. T. Dimov. Distributed-memory parallelization of the Wigner Monte Carlo method using spatial domain decomposition, Journal of Computational Electronics, Volume 13 (2014), pp. 1-12, ISSN: 1569-8025 (Print) 1572-8137 (Online), DOI 10.1007/s10825-014-0635-3, 2013 Impact Factor; 1.372, Cited half-life. 4.50
24. H. Chervenkov, I. T. Dimov, Z. Zlatev. Spline interpolation for modelling of accumulated effects of ozone, International Journal of Environment and Pollution, Volume 54, Number 1/2014, Pages 17-31, DOI 10.1504/IJEP.2014.064048, ISSN 0957-4352 (Print), 1741-5101 (Online), Impact factor, 0.626, http://www.speciation.net/Database/Journals/International-Journal-of-Environment-and-Pollution-;i2627
25. Ferencz, C., Lizunov, G., Crespon, F., Price, I., Bankov, L., Przepiórka, D., Brieß, K., Dudkin, D., Girenko, A., Korepanov, V., Kuzmych, A., Skorokhod, T., Marinov, P., Piankova, O., Rothkaehl, H., Shtus, T., Steinbach, P., Lichtenberger, J., Sterenharz, A., Vassileva, A. Ionosphere waves service (IWS) - A problem-oriented tool in ionosphere and space weather research produced by POPDAT project (2014) Journal of Space Weather and Space Climate, 4, art. no. A17, . / ISSN 2115-7251, Impact Factor (2013) 2.519
26. I. Kutiev, P. Marinov, A. Belehaki, I.Tsagouri. TaD Model of Topside Ionosphere and Plasmasphere for GNSS Applicat. Proceedings of the Fourth International Symposium on Radio Systems and Space Plasma, 30-31.10.2014, Ruse, Bulgaria, ISRSSP'2014, pp.18-26 /ISBN: 978-619-90124-2-0/
27. Z. Zlatev, I. Dimov, I. Farago, K. Georgiev, A. Havasi, Tz. Ostromsky, Application of Richardson Extrapolation with the Crank–Nicolson Scheme for Multi–dimensional Advection, Computers & Mathematics with Applications, Vol. 65 (2014), pp. 2279–2293, ISSN: 0898-1221, IF: 1.996 [5-year IF: 2.062]
28. Milan Magdics, László Szirmay-Kalos, Balázs Tóth, Anton A. Penzov, Analysis and Control of the Accuracy and Convergence of the ML-EM Iteration. LSSC 2013, Sozopol, Bulgaria, June 3-7, 2013, LNCS vol. 8353, (2014), pp. 170-177, ISSN 0302-9743, ISBN 978-3-662-43879-4, DOI: 10.1007/978-3-662-43880-0_18.
29. L. Wang, A. Brown, M. Nedjalkov, C. Alexander, B. Cheng, C. Millar, A. Asenov: "3D Coupled Electro-Thermal FinFET Simulations Including the Fin Shape Dependence of the Thermal Conductivity" ;"Proceedings of the 19th International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2014), ISBN: 978-1-4799-5285-4, 269 - 272 doi:10.1109/SISPAD.2014.6931615. SJR=0.239
30. P. Ellinghaus, M. Nedjalkov, S. Selberherr: "Implications of the Coherence Length on the Discrete Wigner Potential"; Poster: International Workshop on Computational Electronics (IWCE), Paris, France; 03.06.2014 - 06.06.2014; in "The 17th International Workshop on Computational Electronics", (2014), ISBN: 978-2-9547858-0-6, 155 - 156 doi:10.1109/IWCE.2014.6865852. SJR=0.135
31. P. Ellinghaus, M. Nedjalkov, S. Selberherr:"The Wigner Monte Carlo Method for Accurate Semiconductor Device Simulation";"Proceedings of the 19th International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2014), ISBN: 978-1-4799-5285-4, 113 - 116 doi:10.1109/SISPAD.2014.6931576. SJR=0.239
32. P. Ellinghaus, M. Nedjalkov, S. Selberherr:"Efficient Calculation of the Two-Dimensional Wigner Potential"; Talk: International Workshop on Computational Electronics (IWCE), Paris, France; 03.06.2014 - 06.06.2014; in "The 17th International Workshop on Computational Electronics", (2014), ISBN: 978-2-9547858-0-6, 19 - 20 doi:10.1109/IWCE.2014.6865812. SJR=0.135
33. J. M. Sellier, M. Nedjalkov, I. Dimov, S. Selberherr: "The Multi-Dimensional Transient Challenge: The Wigner Particle Approach"; Invited talk: International Workshop on Computational Electronics (IWCE), Paris, France; 03.06.2014 - 06.06.2014; in "17th International Workshop on Computational Electronics (IWCE 2014)", (2014), ISBN: 978-2-9547858-0-6, 119 - 120. SJR=0.135
34. Paul Ellinghaus, Josef Weinbub, Mihail Nedjalkov, Siegfried Selberherr, Ivan Dimov,"Distributed-Memory Parallelization of Wigner Monte Carlo using Spatial Domain Decomposition"Journal of Computational Electronics,IF-1.372
35. S. Amoroso, L. Gerrer, M. Nedjalkov, R. Hussin, C. Alexander, A. Asenov: "Modelling Carriers Mobility in nano-MOSFETs in the Presence of Discrete Trapped Charges: Accuracy and Issues"; IEEE Transactions on Electron Devices, 61 (2014), 1292 - 1298 doi:10.1109/TED.2014.2312820. IF 2.06
36. J. M. Sellier, S. Amoroso, M. Nedjalkov, S. Selberherr, A. Asenov, I. Dimov: "Electron Dynamics in Nanoscale Transistors by Means of Wigner and Boltzmann Approaches";Physica A, 398 (2014), 194 - 198 doi:10.1016/j.physa.2013.12.045. IF 1.722
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